Current Projects

    Concepts for ultra high speed end-to-end protocol processing at data rates of 100 Gbit/s and beyond.

    • Duration: November 2014 until October 2016
    • Funding: DFG Project
    • Partner: Prof. Rolf Kraemer, FG Systeme, BTU Cottbus-Senftenberg

    Fault tolerant middleware idioms based on self-stabilizing algorithms in wireless sensor networks.

    • Duration: October 2011 to February 2017
    • Funding: DFG-Project
    • Partner: Prof. Thurau, Institut für Telematik, TU Hamburg-Harburg

    A minimal, event-driven consistency kernel for many-core processors which provides the necessary low level operations for software controlled consistency protocols that can be used by higher layers.

    • Duration: 2013 to 2016
    • Funding: DFG-Project

    MyThOS - Many Threads Operating System

    Group Projects

    REFLEX is a generic event driven OS for embedded devices.

    TACO (Topologies and Collections) is a highly efficient distributed object platform for cluster architectures which is entirely based on C++ templates.

    Finished Projects

    A modular framework that simplifies the process of building wireless sensor network applications.

    An operating system for architectures with non-volatile main memory.

    • Duration: 2012 to 2015
    • Funding: Intel Labs Research Grant

    A middleware for self organizing sensor networks, which uses data-parallel paradigms to enable flexible grouping of sensor nodes.

    • Duration: from 2004
    • Funding: DFG Project

    This website uses cookies. There are two types of cookies: The first type supports the basic functionality of our website. The second allows us to improve our content for you by saving and analyzing pseudonymised user data. Since this second type is technically not required to run the website, you can withdraw your consent to those cookies at any time. For more information please visit our pages on data protection.


    These cookies are needed for a smooth operation of our website.


    For statistical reasons, we use the platform Matomo to analyse the user flow with the help of website users‘ pseudonymised data. This allows us to optimize website content.

    Name Purpose Lifetime Type Provider
    _pk_id Used to store a few details about the user such as the unique visitor ID. 13 months HTML Matomo
    _pk_ref Used to store the attribution information, the referrer initially used to visit the website. 6 months HTML Matomo
    _pk_ses Short lived cookie used to temporarily store data for the visit. 30 minutes HTML Matomo